The Optimization of Mixing Amine Solvents for CO2 Absorption Based on Aqueous MDEA/DETA and MDEA/TETA

被引:12
|
作者
Tang, J. F. [1 ]
Chen, J. [2 ]
Guo, Q. [3 ]
Chu, J. [2 ]
Hua, Y. H. [2 ]
Fu, H. [4 ]
Han, Y. P. [1 ]
Jiang, X. [1 ]
Huang, B. [1 ]
机构
[1] China Univ Petr East China, Coll Pipeline & Civil Engn, Qingdao 266580, Shandong, Peoples R China
[2] CNOOC Gas & Power Grp Res & Dev Ctr, Beijing, Peoples R China
[3] Kunshan Construct Engn Qual Testing Ctr, Kunshan, Peoples R China
[4] Changqing Petr Explorat Bur Explorat & Design Ins, Xian, Peoples R China
来源
PETROLEUM SCIENCE AND TECHNOLOGY | 2014年 / 32卷 / 24期
关键词
mixing amine solvents; MDEA; absorption; desorption; molar ratios of amine solvents; CARBON-DIOXIDE;
D O I
10.1080/10916466.2014.947434
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Mixed amine solvents have gained increasing attention in recent years. The absorption and desorption performance of mixed amine solvents for CO2 were analyzed by experiments. The absorption rate, absorption load, and desorption rate were used as the evaluating index. The experiment results show that the smaller proportion of MDEA/DETA solvents is the higher absorption load and absorption rate are, but the final desorption degree does not rise. When the rate of TETA is high, it is helpful to improve absorption rate and reduce desorption time of MDEA + TETA, but it is not necessary to add excessive TETA into mixed amine solvents.
引用
收藏
页码:3002 / 3009
页数:8
相关论文
共 50 条
  • [1] CO2 Heat of Absorption in Aqueous Solutions of MDEA and MDEA/Piperazine
    Zheng, Yiyan
    El Ahmar, Elise
    Simond, Mickael
    Ballerat-Busserolles, Karine
    Zhang, Peng
    JOURNAL OF CHEMICAL AND ENGINEERING DATA, 2020, 65 (08): : 3784 - 3793
  • [2] Performance of MDEA-PZ-TETA for Absorption and Desorption of CO2
    Jin, Mei
    Zhou, Li-yan
    Lu, Ping
    Wang, Jin-huang
    Yu, Guo-xian
    ENVIRONMENTAL ENGINEERING, PTS 1-4, 2014, 864-867 : 1721 - +
  • [3] Modeling CO2 absorption in aqueous solutions of DEA, MDEA, and DEA plus MDEA based on intelligent methods
    Abooali, Danial
    Soleimani, Reza
    Rezaei-Yazdi, Ali
    SEPARATION SCIENCE AND TECHNOLOGY, 2020, 55 (04) : 697 - 707
  • [4] Effect of Additives on the CO2 Absorption in Aqueous MDEA Solutions
    Mota-Martinez, Maria T.
    Samdani, Sabbir
    Berrouk, Abdallah S.
    Kroon, Maaike C.
    Peters, Cor J.
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2014, 53 (51) : 20032 - 20035
  • [5] Measurement for the absorption rate of CO2 by aqueous MDEA solution
    Chen, Jian
    He, Gang
    Liu, Jinchen
    Liu, Jian
    Qinghua Daxue Xuebao/Journal of Tsinghua University, 2001, 41 (12): : 28 - 30
  • [6] Comparison of absorption rates and absorption capacity of ammonia solvents with MEA and MDEA aqueous blends for CO2 capture
    Rivera-Tinoco, Rodrigo
    Bouallou, Chakib
    JOURNAL OF CLEANER PRODUCTION, 2010, 18 (09) : 875 - 880
  • [7] Kinetics of absorption of CO2 into aqueous solution of MDEA blended with DEA
    Zhang, X
    Zhang, CF
    Liu, Y
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2002, 41 (05) : 1135 - 1141
  • [8] CO2 Absorption in Mixed Aqueous Solution of MDEA and Cholinium Glycinate
    Yuan, Shengjuan
    Yang, Zhuhong
    Ji, Xiaoyan
    Chen, Yifeng
    Sun, Yunhao
    Lu, Xiaohua
    ENERGY & FUELS, 2017, 31 (07) : 7325 - 7333
  • [9] Absorption of CO2 in the aqueous solutions of functionalized ionic liquids and MDEA
    Zhang Feng
    Fang Cheng-Gang
    Wu You-Ting
    Wang Yuan-Tao
    Li Ai-Min
    Zhang Zhi-Bing
    CHEMICAL ENGINEERING JOURNAL, 2010, 160 (02) : 691 - 697
  • [10] CO2 Capturing by MDEA-PZ-TETA in a Rotating Packed Bed
    Jin, Mei
    Zhou, Li-yan
    Lu, Ping
    Wang, Jin-huang
    Yu, Guo-xian
    CHEMICAL, MATERIAL AND METALLURGICAL ENGINEERING III, PTS 1-3, 2014, 881-883 : 645 - 648
12345